Connector

ABSTRACT

A connector includes a housing ( 10 ) with a terminal accommodating portion ( 11 ) having a non-circular outer periphery and a tubular fitting ( 12 ) surrounding the terminal accommodating portion ( 11 ). A seal ring ( 30 ) is mounted on the outer periphery of the terminal accommodating portion ( 11 ) in the tubular fitting ( 12 ). Positioning projections ( 32 ) are formed on the seal ring ( 30 ), and positioning recesses ( 26 ) are formed on the inner periphery of a front end part of the tubular fitting portion ( 12 ) for engaging the positioning projections ( 32 ) at an initial stage of mounting the seal ring ( 30 ) and positioning the seal ring ( 30 ) in a circumferential direction by being.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to a connector.

2. Description of the Related Art

Japanese Unexamined Patent Publication No. 2006-147474 discloses awaterproof connector with a housing that has a terminal accommodatingportion surrounded by a tubular fitting. A seal ring is mounted on theouter periphery of the terminal accommodating portion in the tubularfitting portion.

The outer periphery of the terminal accommodating portion isnon-circular, hence the seal ring is also non-circular. Thus, if theseal ring is mounted on the terminal accommodating portion while beingdisplaced in a circumferential direction, the amount of resilientdeformation of the seal ring may become nonuniform in thecircumferential direction and sealing performance may be reduced.

The invention was completed based on the above situation and an objectthereof is to prevent a reduction in sealing performance.

SUMMARY OF THE INVENTION

The invention relates to a connector with a housing that has a terminalaccommodating portion. The terminal accommodating portion has anon-circular outer periphery and is surrounded by a tubular fitting. Aseal ring is to be accommodated in the tubular fitting from the front ofthe housing and is mounted on the outer periphery of the terminalaccommodating portion. A positioning portion is formed on the seal ring,and a positioning recess is formed on the inner periphery of a front endpart of the tubular fitting. The positioning recess is configured toposition the seal ring in a circumferential direction by engaging thepositioning portion at an initial stage of mounting the seal ring. Moreparticularly, the positioning portion fits into the positioning recessat an initial stage of mounting the seal ring and positions the sealring in the circumferential direction. Thus, there is no reduction insealing performance due to a displacement of the seal ring in thecircumferential direction. Further, the seal ring is located near thefront end of the tubular fitting at the initial mounting stage. Thus,visual position confirmation and positioning are easy and operability isexcellent.

The seal ring may include a ring-shaped seal functioning portion to beheld in close contact with the outer peripheral surface of the terminalaccommodating portion, and a positional relationship between thepositioning portion and the positioning recess may be set so that thepositioning portion is fit into the positioning recess before the sealfunctioning portion contacts the outer periphery of the terminalaccommodating portion in the mounting process of the seal ring.According to this configuration, the entire seal ring already ispositioned in the circumferential direction when the seal functioningportion is mounted on the outer periphery of the terminal accommodatingportion. Thus, it is not necessary to correct the position of the sealring in the circumferential direction after the seal functioning portionis mounted on the terminal accommodating portion.

The connector may include a rear wall connecting a rear part of thetubular fitting to the outer periphery of the terminal accommodatingportion. A holding portion may be formed on the rear wall and configuredto hold the seal ring in a mounted state by being engaged with thepositioning portion. According to this configuration, the positioningportion also has a function of holding the seal ring in the mountedstate. Thus, the shape of the seal ring can be simplified as comparedwith the case where a special means for holding the seal ring in themounted state is formed in addition to the positioning portion.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front view of a housing in accordance with an embodiment ofthe invention.

FIG. 2 is a section along A-A of FIG. 1.

FIG. 3 is a plan view in section showing a state where positioningportions are fit in positioning recesses at an initial stage of mountinga seal ring.

FIG. 4 is a plan view in section showing a state where the seal ring isfurther mounted in the state of FIG. 3 and a seal functioning portion isin contact with the outer periphery of a terminal accommodating portion.

FIG. 5 is a plan view in section showing a state where the seal ring iscompletely mounted in the housing.

FIG. 6 is a front view of the seal ring.

FIG. 7 is a plan view of the seal ring.

FIG. 8 is a side view of the seal ring.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

One specific embodiment of the invention is described with reference toFIGS. 1 to 8. A connector of this embodiment is composed of a housing 10and a seal ring 30. The housing 10 is made of synthetic resin and anintegral assembly of a block-shaped terminal accommodating portion 11and a tubular fitting 12 surrounding the terminal accommodating portion11 over the entire periphery, as shown in FIGS. 1 and 2. Terminalfittings (not shown) are to be accommodated in the terminalaccommodating portion 11.

As shown in FIG. 2, a rear part of the tubular fitting 12 is connectedto a rear end part of the outer periphery of the terminal accommodatingportion 11 via a rear wall 13 over the entire periphery. A ring-shapedclearance between the outer periphery of the terminal accommodatingportion 11 and the inner periphery of the tubular fitting portion 12 toform a forwardly open connection space 14. A receptacle of a matingconnector (not shown) is fit into this connection space 14 from thefront. The rear wall 13 is formed with left and right holding portions15. The holding portions 15 are in the form of holes penetrating fromthe front surface to the rear surface of the rear wall 13. Lockingportions 16 facing backward are formed by recessing inner side surfacesof the holding portions 15.

As shown in FIG. 1, the outer peripheral surface of the terminalaccommodating portion 11 defines a non-circular sealing surface 17. Thesealing surface 17 is the outer peripheral surface of the terminalaccommodating portion 11 and is composed of a flat upper surface 18,flat left and right side surfaces 19, a flat lower surface 20 and fourarcuate surfaces 21 having a quarter-circular shape and smoothlyconnecting the four flat surfaces 18, 19 and 20.

The tubular fitting 12 faces the sealing surface 17 of the terminalaccommodating portion 11 with a substantially uniform clearancetherebetween. Thus, the front shape of the tubular fitting 12 isnon-circular similar to the sealing surface 17 of the terminalaccommodating portion 11. The tubular fitting 12 is composed of an flatupper wall 22, flat left and right side walls 23, a flat lower wall 24and four arcuate walls 25 having substantially quarter-circular shapesand connecting the flat walls 22, 23 and 24.

As shown in FIGS. 1 and 2, the tubular fitting 12 has two bilaterallysymmetric positioning recesses 26 for positioning the seal ring 30. Thepositioning recesses 26 are grooves formed by recessing the innerperipheries of front end parts of the both left and right side walls 23.The positioning recesses 26 open on the front end surface of the tubularfitting 12. Further, formation areas of the positioning recesses 26 inforward and backward directions (directions parallel to a mountingdirection of the seal ring 30 onto the terminal accommodating portion11) are only front end parts of the tubular fitting 12. Guiding slants27 are formed on rear end parts of the positioning recesses 26 and areoblique to forward and backward directions. Front ends of the tubularfitting 12 and the terminal accommodating portion 11 are locatedsubstantially at the same position in forward and backward directions.

As shown in FIGS. 6, 7 and 8, the seal ring 30 is made unitarily ofrubber and defines a seal functioning portion 31 and two bilaterallysymmetric positioning projections 32. The seal functioning portion 31has a non-circular ring shape corresponding to the outer periphery ofthe terminal accommodating portion 11. The seal functioning portion 31is composed of an upper frame portion 33 extending straight in a lateraldirection, a pair of left and right side frame portions 34 extendingstraight in a vertical direction, a lower frame portion 35 extendingstraight in the lateral direction and four arcuate frame portions 36having a substantially quarter-circular shape and smoothly connectingthe frame portions 33, 34 and 35.

Outer lips 37 are formed on the outer periphery of the seal functioningportion 31 and are held in close contact with the inner periphery of thereceptacle of the mating connector in a liquid-tight manner by beingresiliently deformed. An inner lip 38 is formed on the inner peripheryof the seal functioning portion 31. The inner lip 38 is held in closecontact with the sealing surface 17 of the terminal accommodatingportion 11 in a liquid-tight manner by being resiliently deformed.

The positioning projections 32 are cantilevered obliquely out to theback from outer surfaces of the side frame portions 34 of the sealfunctioning portion 31 behind the outer lips 37. Thus, the positioningprojections 32 are located laterally outward of the outer side surfaceof the seal functioning portion 31 and mostly behind the rear endsurface of the seal functioning portion 31. Accordingly, the rear endsof the positioning projections 32 (front ends in the mounting directionof the seal ring 30 onto the housing 10) are located behind the rear endof the seal functioning portion 31. Further, locks 39 are formed on theprojecting end edges of the positioning projections 32 and project outin the lateral direction. Taper surfaces 40 are formed on the rearsurfaces of the locks 39.

The seal ring 30 is mounted into the housing 10 from the front so thatthe two positioning projections 32 fit into the two positioning recesses26. The positioning recesses 26 are open on the front end of the tubularfitting 12 so that an operator can visually confirm the positions of thepositioning recesses 26. Further, the positioning projections 32 areformed with the taper surfaces 40. Hence, even if the seal ring 30 isdisplaced in the lateral direction with respect to the housing 10, sucha displacement can be corrected by the taper surfaces 40.

The seal ring 30, including the positioning projections 32, is notresiliently deformed in a state where the positioning projections 32 arefit properly in front end parts of the positioning recesses 26. As shownin FIG. 3, the outer surfaces of the locks 39 on positioning projections32 are held in contact with the inner surfaces of the positioningrecesses 26 so that the seal ring 30 is positioned in the lateraldirection with respect to the housing 10. Further, the upper and lowerend surfaces of the positioning projections 32 are held in contact withthe upper and lower inner surfaces of the positioning recesses 26. As aresult, the seal ring 30 is positioned in the vertical direction withrespect to the housing 10. These several contact positions are in arelationship to be different from each other in the circumferentialdirection along the outer periphery of the terminal accommodatingportion 11.

Accordingly, the seal ring 30 is positioned in the circumferentialdirection with respect to the housing 10 by fitting the positioningprojections 32 into the positioning recesses 26. If the seal ring 30 ispositioned, the frame portions 33, 34 and 35 extending in the lateral orvertical directions are held in a positional relationship correspondingto the flat surfaces 18, 19, 20 without corresponding to the arcuatesurface portions 21. Further, the arcuate frame portions 36 are in apositional relationship corresponding to the arcuate surfaces 21 withoutcorresponding to the flat surfaces 18, 19 and 20.

The properly positioned seal ring 30 is mounted further so that the twopositioning projections 32 are pushed from the front by a jig so thatthe seal ring 30 moves in parallel while sliding in contact with thesealing surface 17. When the seal ring 30 is mounted further, the sealfunctioning portion 31 is fit externally on a front end part of theouter peripheral sealing surface 17 of the terminal accommodatingportion 11, as shown in FIG. 4. Since the seal ring 30 already ispositioned in the circumferential direction with respect to the housing10 at this point of time, the upper, side and lower frame portions 33,34 and 35 respectively correctly contact the upper, side and lowersurfaces 18, 19 and 20 and the four arcuate frame portions 36respectively correctly come into contact with the corresponding arcuatesurface portions 21.

In this state, the seal ring 30 is mounted further while being moved inparallel. In this mounting process, the taper surfaces 40 on the rearends of the positioning projections 32 slide in contact with the guidingslants 27 on the rear ends of the positioning recesses 26 so that thepositioning projections 32 resiliently deform inward in the lateraldirection and separate from the positioning recesses 26 without beingcaught. Thereafter, as the seal ring 30 is mounted further, thepositioning projections 32 slide in contact with the inner surfaces ofthe side walls 23 of the tubular fitting 12.

When the seal functioning portion 31 reaches a back end part of afitting recess and the mounting of the seal ring 30 is completed, thepositioning projections 32 fit into the holding portions 15 and thelocking projections 39 engage with the locking portions 16 from behindas shown in FIG. 5. By this locking action, a forward detaching movementof the seal ring 30 from the housing 10 is restricted. In this way, theseal ring 30 is held in the mounted state to be correctly positioned inthe circumferential direction and correctly positioned also in forwardand backward directions.

The connector of this embodiment includes the housing 10 formed suchthat the terminal accommodating portion 11 has a non-circular outerperiphery and is surrounded by the tubular fitting 12. The seal ring 30is to be accommodated into the tubular fitting 12 from the front of thehousing 10 and is mounted on the outer periphery of the terminalaccommodating portion 11. The positioning projections 32 are formed onthe seal ring 30 and the positioning recesses 26 are formed on the innerperiphery of the front end part of the tubular fitting 12 to positionthe seal ring 30 in the circumferential direction by engaging thepositioning projections 32 at the initial stage of mounting the sealring 30.

According to this configuration, the positioning projections 32 are fitinto the positioning recesses 26 at the initial stage of mounting theseal ring 30 so that the seal ring 30 is positioned in thecircumferential direction. If the seal ring 30 is positioned at theinitial mounting stage, the positioned seal ring 30 only has to bepushed straight back thereafter. Thus, there is no possibility that theseal ring 30 is displaced in the circumferential direction in themounting process after the positioning. Therefore, a reduction insealing performance due to a circumferential displacement can beprevented. Further, since the seal ring 30 is located near the front endpart of the tubular fitting 12 at the initial mounting stage, visualposition confirmation and positioning are easy and operability isexcellent.

Further, the seal ring 30 includes the ring-shaped seal functioningportion 31 to be held in close contact with the outer peripheral surfaceof the terminal accommodating portion 11 and a positional relationshipbetween the positioning projections 32 and the positioning recesses 26is so set that the positioning projections 32 are fit into thepositioning recesses 26 before the seal functioning portion 31 comesinto contact with the outer periphery of the terminal accommodatingportion 11 in the mounting process of the seal ring 30. According tothis configuration, the entire seal ring 30 already is positioned in thecircumferential direction when the seal functioning portion 31 ismounted on the outer periphery of the terminal accommodating portion 11.Thus, it is not necessary to correct the position of the seal ring 30 inthe circumferential direction after the seal functioning portion 31 ismounted on the terminal accommodating portion 11.

Further, the connector includes the rear wall 13 connecting the rear endpart of the tubular fitting 12 to the outer periphery of the terminalaccommodating portion 11 and the holding portions 15 formed on the rearwall 13 and configured to hold the seal ring 30 in the mounted state bybeing engaged with the positioning projections 32. According to thisconfiguration, the positioning projections 32 also have a function ofholding the seal ring 30 in the mounted state, so that the shape of theseal ring 30 can be simplified as compared with the case where a specialmeans for holding the seal ring in the mounted state is formed inaddition to the positioning portions.

The present invention is not limited to the above described andillustrated embodiment. For example, the following embodiments are alsoincluded in the technical scope of the present invention.

Although the formation areas of the positioning recesses in forward andbackward directions are only the front end parts of the tubular fittingin the above embodiment, the positioning recesses may be continuouslyformed from the front end (opening end) to the rear end (back end) ofthe tubular fitting.

Although the two positioning recesses are formed in the aboveembodiment, one, three or more positioning recesses may be formed.

Although the positioning projections are fit into the positioningrecesses before the seal functioning portion comes into contact with theouter periphery of the terminal accommodating portion in the mountingprocess of the seal ring in the above embodiment, there is no limitationto this. The positioning projections may be fit into the positioningrecesses after the seal functioning portion comes into contact with theouter periphery of the terminal accommodating portion.

Although the positioning projections also have the function of holdingthe seal ring in the mounted state in the above embodiment, the sealring may be formed with a special means for holding the seal ring in themounted state in addition to the positioning projections.

What is claimed is:
 1. A connector, comprising: a housing (10) with aterminal accommodating portion (11) having a non-circular outerperiphery and a tubular fitting (12) surrounding the terminalaccommodating portion (11); a seal ring (30) accommodated in the tubularfitting (12) from a front end of the housing (10) and mounted on theouter periphery of the terminal accommodating portion (11); at least onepositioning projection (32) formed on the seal ring (30); and at leastone positioning recess (26) formed on an inner periphery of a front endpart of the tubular fitting (12) and configured to position the sealring (30) in a circumferential direction by engaging the positioningprojection (32) at an initial stage of mounting the seal ring (30). 2.The connector of claim 1, wherein: the seal ring includes a ring-shapedseal functioning portion (31) to be held in close contact with the outerperipheral surface of the terminal accommodating portion (11); and apositional relationship between the positioning projection (32) and thepositioning recess (26) is so set that the positioning projection (32)is fit into the positioning recess (26) before the seal functioningportion (31) comes into contact with the outer periphery of the terminalaccommodating portion (11) when mounting the seal ring (30).
 3. Theconnector of claim 2, further comprising: a rear wall (13) connecting arear end part of the tubular fitting (12) to the outer periphery of theterminal accommodating portion (11); and at least one holding portion(15) formed on the rear wall (13) and configured to hold the seal ring(30) in a mounted state by engaging the positioning projection (32). 4.The connector of claim 1, wherein the at least one positioningprojection (32) comprises two positioning projections (32), and the atleast one positioning recess (26) comprises two positioning recesses(26).
 5. The connector of claim 4, wherein the positioning projections(32) and the positioning recesses (26) are bilaterally symmetricallydisposed.
 6. The connector of claim 4, further comprising guiding slants(27) formed on rear end parts of the positioning recesses (26).
 7. Theconnector of claim 1, wherein the seal ring (30) is formed unitarily ofrubber.